A series of titanium complexes containing the
tridentate [ONN] ligands La–Lf were synthesized and characterized. The ligands
Lb (8-quinolinolato-CH2NHAr; Ar = 2,6-diisopropylphenyl) has been prepared by
the reduction of the corresponding imino-quinolinol compound
La(8-quinolinolato-CH═NAr; Ar = 2,6-diisopropylphenyl) with LiAlH4 in high
yield. Ligands Lc–Lf
were synthesized by a procedure similar to that used to prepare ligand Lb.
Reaction of TiCl4 with imino-quinolinol ligand La affords the six-coordinate
trichloride titanium complex 1. The selective synthesis of tri- and
dichlorotitanium complexes containing ligand Lb was achieved by changing the
base for deprotonation. When it is deprotonated by NaH, ligand Lb can be used
as a tridentate monoanionic ligand to synthesize trichlorotitanium complex 2.
While deprotonated by nBuLi, it can be used as a tridentate dianionic ligand to
synthesize dichlorotitanium complex 3. Other dichlorotitanium complexes 4–7
were synthesized by a procedure similar to that used to prepare complex 3. All
complexes have been characterized by 1H NMR spectra and elemental analysis. The
molecular structures of ligand Lb and complex 1 have been characterized by
single-crystal X-ray diffraction analyses. XANES and EXAFS spectroscopy
performed on the representative complexes 2 and 3 reveals the different
coordination geometries. When they are activated by excess methylaluminoxane
(MAO), all of the titanium complexes can be used as catalysts for ethylene
polymerization and exhibit moderate to good activities. It was found that the
catalytic behaviors of the title complexes were highly affected by the
coordination entironment of the metal center and the effect of substituent
groups on ligands.
Ping Hu (et al.). Syntheses,
Characterization, and Ethylene Polymerization of Titanium Complexes with
Double-Duty Tridentate [ONN] Ligands. Organometallics. American Chemical
Society. Mar 1, 2012. http://pubs.acs.org/doi/full/10.1021/om300091e
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